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This study reports a systematic study on the potential of employing partial gasification at low conversions for tuning biochar for better properties and facilitating the recycling of inorganic nutrient species. The raw biochars were prepared from mallee wood and leaf at fast pyrolysis at 500 °C (a temperature pertinent to bio-oil production) and subsequent tuning via partial steam gasification at 725 °C and low conversions (5 and 10% on a carbon basis). The favorable structure tuning is achieved at the expense of 8-23% carbon, which would otherwise be available for sequestration during biochar application in soil. The development of the pore structure and transformation of the chemical forms of inorganic nutrient species as a result of partial gasification increase the leachability of the inorganic nutrient species in biochars via both water and Mehlich I solution. In addition, <1.5% of the organic matter in raw and tuned biochar is water-soluble. The leaching of water-soluble organic matter from the tuned biochars after re-pyrolysis and partial gasification (but absent in the same biochars after re-pyrolysis) suggests that partial gasification increases the accessibility of organic matter trapped in closed or blocked pores formed during pyrolysis. While some aromatic compounds can be leached from the raw biochar via solvent, no aromatic compounds are detected in the leachates from the tuned biochars. The tuning of biochar via partial gasification also improves the leaching kinetics of the inherent inorganic nutrient species. The overall recyclability of the inorganic nutrient species in the raw and tuned biochar shows that tuning biochar via partial gasification can be an effective strategy for facilitating the recycling of the inherent nutrient species in biochar.

Biomass growth extracts inorganic nutrients from soil as inherent nutrient species in the biomass. Unless at least some of these inherent inorganic nutrients are eventually recycled to the soil, biomass utilization during ...

A set of 24 biochars were produced from the slow and fast pyrolysis (at 400-700 °C) of a mallee leaf and two spent leaves collected after distilling the leaf in steam for 30 and 60 min. Under the same experimental conditions, ...